Nanotube Brush

These brushes can be used for sweeping up nano-dust, as electronic micro-switches, painting micro capillaries and even cleaning up pollutants in water. The bristles' secret is carbon nanotubes, tiny straw-like molecules just 30 billionths of a meter (30 nm) across. They are incredibly tough and yet flexible enough that they will yield when pushed from the side. The scientists grow bristles from hot, carbon-laden gas on to threads of silicon carbide finer than baby's hair. The researchers show how the brushes can sweep up piles of nano-dust. They have also shown that the brushes can be used to paint microstructures - dipped into a solution of iron oxide (rust), the minute brush hairs will pick up the red oxide particles which can then be wiped on to a bare surface. With the bristles coated in absorbent materials, the brushes will soak up toxic silver ions from contaminated water. Because of their strength, resistance to abrasion, and pliability, the nanobrushes may prove superior to macroscopic metal brushes in high-power motors. Conventional brush bristles, made of animal hairs, synthetic polymer fibers, and metal wires, are flimsy and prone to breaking down at the nano-scale. To work at the nano-scale, researchers realized that a different kind of material was needed. The small size, strength, elasticity, and ability to conduct electricity make carbon nanotubes as ideal bristle material at the nano-scale.

Acknowledgment: Guiness World Records, Ltd.

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This work was a collaborative research conducted by the University of Hawaii (UH) at Manoa in Honolulu, Hawaii and Rensselaer Polytechnic Institute (RPI) in Troy, New York. The UH research team was lead by Prof. Mehrdad Ghasemi-Nejhad who also directs the Hawaii Nanotechnology Laboratory (HNL). Dr. Anyuan Cao is the associate director of HNL. Vinod Veedu is a PhD student at the UH department of mechanical engineering and conducts research at HNL. The RPI team was lead by Dr. Pulickel Ajayan, the Henry Burlage Professor of Materials Science and Engineering. Dr. Ajayan is a world-renowned expert in nanotechnology. Their work was reported in the journal Nature Materials in July 2005.